Postoperative pain relief after laparoscopic cholecystectomy: intraperitoneal sodium bicarbonate versus normal saline.

AIM
The aim of this study was to determine the effect of sodium bicarbonate irrigation versus normal saline irrigation in patients undergoing a laparoscopic cholecystectomy.


BACKGROUND
Pain in patients undergoing laparoscopic cholecystectomy is the most common complaint, especially in the abdomen, back, and shoulder region.


PATIENTS AND METHODS
In a double blind randomized clinical trial, 150 patients were assigned to the three groups (50 patients in each group). Group A received intraperitoneal irrigation normal saline (NS). Groups B and C received irrigation sodium bicarbonate and none irrigation, respectively. Pain was assessed using a visual analog scale (VAS) for 6, 18 and 24 hours postoperatively, as well as one week after the surgery. Data analysis was performed using SPSS ver18 and chi-square, Fisher's Exact Test, on-way ANOVA and repeated measure ANOVA tests.


RESULTS
Patients in groups showed no significant difference in terms of age, gender, past medical history and smoking history (p>0.05). Left shoulder tip pain was significantly lower only between the sodium bicarbonate group and non-washing group at 6, 18, and 24 hours postoperatively (P=0.04, P=0.02 and P=0.009 respectively). There was no significant difference between the three treatment groups in right shoulder tip pain, back pain and port site incisional pain.


CONCLUSION
In laparoscopic cholecystectomy, peritoneal irrigation with sodium bicarbonate may reduce the intensity of postoperative shoulder tip pain and is an effective method for improving the quality of life within the early recovery period.


Introduction
1 Laparoscopic cholecystectomy is considered as the treatment of choice for symptomatic cholelithiasis (1). Laparoscopic surgery has displayed advantages over open surgery, including reason for prolonged hospitalization after laparoscopic cholecystectomy (6,7). Patients frequently complain of back, shoulder region pains and discomfort of port site incisions (8). Shoulder and sub-diaphragmatic pain occurs in about 12% to 60% of patients (9). Peak of pain intensity is during the first few postoperative hours and usually declines after 2 or 3 days (10). The etiology of pain after laparoscopic cholecystectomy is multifactorial (9). One suggested cause of pain after laparoscopy is the peritoneal insufflation with CO2 and phrenic nerve irritation in the peritoneal cavity (11)(12)(13). In fact, the acid milieu created by the dissolution of CO2 gas cause peritoneal irritation and phrenic nerve damage in laparoscopic cholecystectomy. Additional contributing factors include sociocultural status, and individual factors (9). To date, administration of non-steroidal antiinflammatory drugs (NSAIDs) and narcotics, gas drainages, intraperitoneal saline and intraperitoneal of local anesthetics and opioids were carried out to reduce pain after a laparoscopic cholecystectomy. While, use of these methods for pain relief after laparoscopic cholecystectomy had a lot of side effects or was not associated with a similar result (9,(14)(15)(16)(17). Therefore, the clinical significance of pain control after laparoscopic surgery remains controversial. This randomized clinical trial was designed to determine whether it is possible to reduce post laparoscopic pain by neutralizing acidic peritoneal environment (created by CO2 insufflation) using peritoneal wash out with sodium bicarbonate (an alkaline solution).

Patients and Methods
This study is a double blind randomized clinical trial (IRCT code: IRCT2015091123981N1r1), which was done from September 2012 to September 2014. After approval of the local ethics committee, 150 patients (80% power, 95% CI) of ASA physical status I-II undergoing elective laparoscopic cholecystectomy were prospectively randomized (with permutation block randomization) into 3 groups with concealment of the random group. Exclusion criteria were positive history of the use of opioids, steroids, NSAIDs and alcohol. Also, patients with acute cholecystitis, gangrene or empyema of the gallbladder, conversion to an open procedure for any reason, rupture of the gallbladder and bile leakage at the site of surgery, and bleeding in the site of surgery that could cause the peritoneal irritation were excluded. Demographic data, including age, gender, past medical history, smoking history and time of pneumoperitoneum was recorded.
All patients were referred to the operating room without premedication. A standard anesthetic was used during surgery. All laparoscopic cholecystectomy were performed by the same surgeon. A standard operative method was used with a 4-trocar technique in all patients. Nasogastric tube was inserted for all patients after intubation and was removed at the end of the surgery. Pneumoperitoneum was achieved with insufflations of CO2 through a periumbilical trocar, and was maintained at 14mm Hg during the entire surgical procedure. After removal of the gallbladder, hemostasis was performed in the surgical bed, and patients were randomly assigned to each of the three groups of 50 patients: Group A, normal saline group: 1000 ml normal saline 0.9%at a temperature of 37 ْ◌C was infused in the surgical bed, superior surface of the liver and under the right hemi diaphragm.
Group B, sodium bicarbonate group: 50 ml sodium bicarbonate 7.5% in 1000 ml normal saline at a temperature of 37 ْ◌C was infused in the surgical bed, superior surface of the liver and under the right hemi diaphragm.
Group C, non-washing group: no intraperitoneal irrigation was applied.
In normal saline and bicarbonate groups, the fluid was completely aspirated before the pneumoperitoneum was deflated. CO2 was carefully evacuated at the end of the surgery by manual compression of the abdomen with open trocars (especially through the epigastrium trocar). No drains were used. Pain was assessed during an interview with the patients using a visual analog scale (VAS) of 0 to 10 by a trained interviewer unaware of the grouping of patients. During an interview, the interviewer explained the VAS for every patient, defining "0" for 'no pain' and "10" for 'the worse imaginable pain'.
Assessments were done at the patient's bedside at 6, 18 and 24 hours postoperatively, as well as a week after the surgery (in the first postoperative visit). Intensity of pain was recorded at 8 locations for assessment of port site incision pain, shoulder tip pain and back pain, including 3 port site incisions (port site incision pain), each of shoulder tips (shoulder tip pain) and the area between the shoulders and the tip of scapulas (Back pain).
During the first 24 hours after the surgery, all of the patients were allowed to receive Paracetamol as analgesic as needed (slow intra venous infusion of 1000 mg in 100 milliliter normal saline, not more than three times per 24 hours), and the exact times of administrations were recorded in the patients' files in special tables for the study.
Data were entered into a data bank using SPSS ver. 18. In addition to descriptive tables, in the analysis of the data we used chi-square, Fisher's Exact Test, one-way ANOVA and repeated measure ANOVA. The statistical level of significance was set at P<0.05.

Results
One hundred and fifty patients were enrolled into the study, 50 in each group. No significant difference was found between the 3 groups in terms of demographic data including: sex and age distribution, as well as past medical history (history of the ischemic heart disease, hypertension, diabetes mellitus, dyspepsia, etc.), and smoking history (Table 1). There was a significant difference in the average time of pneumoperitoneum between the non-washing and the normal saline groups. There was no significant difference in the average time of pneumoperitoneum in sodium bicarbonate group and two other groups (Table 1).
In our patients, the most painful site was the site of umbilical incision (the mean of pain intensity at 6, 18 and 24 hours postoperatively was 2.5, 2.1, and 1.7, respectively), followed by pain at other trocar sites and the shoulder tips. The area between the shoulders and under the scapulas had the lowest pain intensity ( Table 2). Very few patients (six patients of non-washing group, four patients of normal saline group and three patients of bicarbonate group) had pain one week after the surgery that was in trocar sites and tip shoulders ( Table 2).

Port site incisional pain
In the evaluation of port site incisional pain, there was no statistically significant difference between the three treatment groups in ANOVA tests ( figure 1).

Shoulder tip pain
Comparison of shoulder tip pain with repeated measure analysis of variance showed that, overall pain intensity of left shoulder was significantly different between the three treatment groups. The sodium bicarbonate group had significantly less overall pain intensity than non-washing group (with "Between-subject effect test" P=0.02, F=3.625). Also change of pain intensity over the time was different between the 3 groups. Decrease Table 2   .009 respectively), and left shoulder tip pain was not significantly different between three groups one week after the surgery. Also, left shoulder tip pain was lower in the sodium bicarbonate group than in the normal saline group at 6, 18, and 24 hour after the surgery, but this pain did not reach statistical significance (table 3).
In the evaluation of the right shoulder tip pain, despite the fact that pain intensity of the sodium bicarbonate group was less than other two groups  in almost all of the time points, there was no statistically significant difference in ANOVA tests (table 3).
Analysis using repeated measure ANOVA showed that there was no significant difference in the mean pain intensity of shoulders between the three groups (P = 0.17; figure 2). However, a steeper decreasing trend in the sodium bicarbonate group over time was observed. Also, evaluation of mean pain intensity of shoulders at each time point with One-Way ANOVA showed that pain intensity at 24 hour after the surgery in sodium bicarbonate group was significantly less than nonwashing group (with "Between-subject effect test", P=0.04) (table 3).

Back pain
In the evaluation of the back pain (area between the shoulders and the tip of scapulas) there was no significant difference between the 3 treatment groups in ANOVA tests ( figure 3).

Postoperative analgesic requirement
Regarding the number of analgesia demand over the 24 hours postoperatively, ANOVA tests showed no significant difference between the 3 treatment groups (table 4).

Discussion
Despite many advances in laparoscopic cholecystectomy, postoperative pain is still a serious problem, and in most reports, up to 80% of patients ask for analgesics after laparoscopic cholecystectomy (18). Pain intensity peaks over the first postoperative hours and gradually decreased over the following 48 to 72 hours (19). There are many evidences that the main source of pain after laparoscopic cholecystectomy is the peritoneum rather than the skin or abdominal wall (20). Due to high solubility and noncombustible properties, CO2 insufflation constitutes the commonest means of creating the pneumoperitoneum. CO2 pneumoperitoneum is known to cause systemic acidosis (21). Recent researches have shown that peritoneal acidosis could occur during CO2 laparoscopy (22)(23)(24). In one of the best designed studies, when CO2 gas was used for pneumoperitoneum, it was shown that the intraperitoneal pH was 6.0 immediately after the operation and raised to 6.4-6.7 and 6.8-6.9 on the first and second post-operation days, respectively (25). Peritoneal acidosis has been proposed as one of the most important factors responsible for damaging of the mesothelial lining of the peritoneum and consequent peritoneal irritation (23). Moreover, the phrenic nerve could be damaged by the acidic environment created by CO2 (13). Both of these factors lead to postoperative pain. In this study, we showed a reduction of postoperative pain in the intraperitoneal sodium bicarbonate wash out group. Sodium bicarbonate may neutralize effect of the acid milieu on peritoneal cavity and the phrenic nerve damage which consecutively will lead to a reduction of postoperative pain.
As you can see in figure 1 and 2, the most significant difference between the sodium bicarbonate group and the other treatment groups was seen in the shoulder tip pain. However, there was no significant intergroup difference in the trocar site pain. It is believed that, in laparoscopic cholecystectomy the trocar site pain is a somatic pain, whereas the shoulder tip pain is a visceral pain due to diaphragmatic irritation (26). Therefore, it seems that lower shoulder tip pain in the sodium bicarbonate group is due to reduction of peritoneal acidosis and a decrease in degree of irritation of peritoneum and phrenic nerve endings (15).
In previous studies that used sub diaphragmatic washout with saline solution, a significant decrease in postoperative pain intensity has been reported (12,27). In those studies, the researchers concluded that one of the likely mechanisms for the positive effect of intraperitoneal saline washout on reduction of post laparoscopic pain has been the improved evacuation of residual carbon dioxide from the peritoneal cavity, especially sub diaphragmatic region (12,27). In our study, a significant difference in the left shoulder tip pain and mean pain intensity of shoulders was observed between the sodium bicarbonate group and non-washing group. Also, lower left shoulder tip pain and mean pain intensity of shoulders and at 6, 18 and 24 hour after the surgery were found in the sodium bicarbonate group than in the normal saline group, but this did not reach statistical significance. We believe the mechanism that leads to lower shoulder tip pain in a sodium bicarbonate group in comparison with the two other groups is the following: the peritoneal irrigation with both of sodium bicarbonate and normal saline solutions reduces the COR 2R gas above the liver, but sodium bicarbonate neutralizes the acidic sub diaphragmatic area more effective than saline solution that leads to less diaphragmatic and peritoneal irritation, as well as less postoperative pain.
In previous studies, which used intraperitoneal bupivacaine washout for reduction of pain after laparoscopic cholecystectomy, the effect was short-lived and did not exceed 6-12 hours after the surgery (28,29). In a study by Morsy, et al., shoulder pain intensity measured by VAS after surgery was significantly lower in lidocaine and nalbuphine groups in comparison with the intraperitoneal normal saline group at first 8 h (8). In our study, the superiority of the sodium bicarbonate group over the non-washing group persisted within the first 24 hours after the surgery. Left shoulder tip pain was significantly lower in a sodium bicarbonate group at 6, 18 and 24 hours, postoperatively and mean pain intensity of shoulders in 24 hour after the surgery was also less in this group. However, in Morsey, et al. study, consumption of Paracetamol was significantly lower in lidocaine and nalbuphine groups. However, in our study there was no significant difference in the number of analgesia demand over the 24 hours postoperatively (8).
The limitation of this study was the lack of integration groups in terms of age and sex. We recommend clinical trials studies with considering these factors due to effect of them on pain (30).
Intraperitoneal irrigation of sodium bicarbonate is a simple and safe method that provides pain relief in the postoperative period after laparoscopic cholecystectomy compared with none-washing. Also, intraperitoneal irrigation of sodium bicarbonate was found to have a better pain relief profile compared with normal saline. We recommend that the sodium bicarbonate washout procedure to be used at laparoscopic cholecystectomy, because it is a way for reducing the post laparoscopic pain intensity for 24h after surgery.